Proceedings of the Genetic and Evolutionary Computation Conference 2018
DOI: 10.1145/3205455.3205583
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Evolution of fin undulation on a physical knifefish-inspired soft robot

Abstract: Soft robotics is a growing field of research and one of its challenges is how to efficiently design a controller for a soft morphology. This paper presents a marine soft robot inspired by the ghost knifefish that swims on the water surface by using an undulating fin underneath its body. We investigate how propagating wave functions can be evolved and how these affect the swimming performance of the robot. The fin and body of the robot are constructed from silicone and six wooden fin rays actuated by servo moto… Show more

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Cited by 12 publications
(11 citation statements)
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“…Online controller learning is relatively easy to implement with physical experimentation, as the morphology remains fixed, and it has been applied successfully for locomotion [53,85] and a soft fish robot [123]. Other studies have co-optimized control and morphology in the real world.…”
Section: Scaling Up Physical Experimentationmentioning
confidence: 99%
See 2 more Smart Citations
“…Online controller learning is relatively easy to implement with physical experimentation, as the morphology remains fixed, and it has been applied successfully for locomotion [53,85] and a soft fish robot [123]. Other studies have co-optimized control and morphology in the real world.…”
Section: Scaling Up Physical Experimentationmentioning
confidence: 99%
“…In simulation they have been shown to effectively optimize a range of virtual agents [117], including ones for locomotion [9,24] or navigating a confined space [8]. EAs have also been demonstrated in the real world, evolving modular robots for locomotion [3,126] and for controlling a soft fish robot [123].…”
Section: Optimization Algorithmsmentioning
confidence: 99%
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“…Veenstra et al [22] managed to skip the "reality gap" by evolving the parameters of the controller in a real physical prototype. They designed a knifefish-like soft robot which uses a servo motor to drive the silica gel fish fin, and evolved the control parameters of the servo motor by CMA-ES.…”
Section: Related Workmentioning
confidence: 99%
“…Previous researchers [22,28] put forward that computational requirements scale proportionally to the amount of voxels simulated, usually exponentially, increasing the computational power needed when more are used, and that a very precise physical model may not be required for the purpose of gait optimization. Therefore, we wanted to use as few voxels as possible to construct our soft robot model to ensure computational efficiency, though of course under the premise that the appearance and deformation are almost consistent with the actual soft cube, as shown in Figure 4.…”
Section: Simulation In Voxcadmentioning
confidence: 99%